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MDMON(8)							      MDMON(8)

NAME
       mdmon - monitor MD external metadata arrays

SYNOPSIS
       mdmon [--all] [--takeover] [--foreground] CONTAINER

OVERVIEW
       The  2.6.27  kernel  brings  the	 ability  to support external metadata
       arrays.	External metadata implies that user space handles all  updates
       to  the	metadata.  The kernel's responsibility is to notify user space
       when a "metadata event" occurs, like disk failures  and	clean-to-dirty
       transitions.   The  kernel, in important cases, waits for user space to
       take action on these notifications.

DESCRIPTION
   Metadata updates:
       To service metadata update requests a  daemon,  mdmon,  is  introduced.
       Mdmon is tasked with polling the sysfs namespace looking for changes in
       array_state, sync_action, and per disk state attributes.	 When a change
       is  detected it calls a per metadata type handler to make modifications
       to the metadata.	 The following actions are taken:

	      array_state - inactive
		     Clear the dirty bit for the volume and let the  array  be
		     stopped

	      array_state - write pending
		     Set  the dirty bit for the array and then set array_state
		     to active.	 Writes are  blocked  until  userspace	writes
		     active.

	      array_state - active-idle
		     The  safe	mode  timer  has expired so set array state to
		     clean to block writes to the array

	      array_state - clean
		     Clear the dirty bit for the volume

	      array_state - read-only
		     This is the initial  state	 that  all  arrays  start  at.
		     mdmon takes one of the three actions:

		     1/	    Transition	the  array  to	read-auto  keeping the
			    dirty bit clear if the metadata handler determines
			    that  the  array  does not need resyncing or other
			    modification

		     2/	    Transition the array to  active  if	 the  metadata
			    handler  determines a resync or some other manipu‐
			    lation is necessary

		     3/	    Leave the array read-only if the volume is	marked
			    to	not  be	 monitored;  for example, the metadata
			    version  has  been	set  to	 "external:-dev/md127"
			    instead of "external:/dev/md127"

	      sync_action - resync-to-idle
		     Notify  the  metadata handler that a resync may have com‐
		     pleted.  If a resync process is idled before it completes
		     this  event  allows  the  metadata	 handler to checkpoint
		     resync.

	      sync_action - recover-to-idle
		     A spare may have completed rebuilding so tell  the	 meta‐
		     data  handler  about the state of each disk.  This is the
		     metadata handler's opportunity to clear any "out-of-sync"
		     bits and clear the volume's degraded status.  If a recov‐
		     ery process is  idled  before  it	completes  this	 event
		     allows the metadata handler to checkpoint recovery.

	      <disk>/state - faulty
		     A	disk  failure  kicks  off  a series of events.	First,
		     notify the metadata handler that a disk has  failed,  and
		     then  notify  the	kernel that it can unblock writes that
		     were dependent on this disk.  After unblocking the kernel
		     this  disk	 is  set to be removed+ from the member array.
		     Finally the disk is marked failed	in  all	 other	member
		     arrays in the container.

		     +	Note  This  behavior  differs  slightly from native MD
		     arrays where removal is reserved  for  a  mdadm  --remove
		     event.  In the external metadata case the container holds
		     the final	reference  on  a  block	 device	 and  a	 mdadm
		     --remove <container> <victim> call is still required.

   Containers:
       External metadata formats, like DDF, differ from the native MD metadata
       formats in that they define a set of disks and a series	of  sub-arrays
       within  those disks.  MD metadata in comparison defines a 1:1 relation‐
       ship between a set of block devices and a RAID array.  For  example  to
       create  2  arrays at different RAID levels on a single set of disks, MD
       metadata requires the disks be partitioned and then each array  can  be
       created with a subset of those partitions.  The supported external for‐
       mats perform this disk carving internally.

       Container devices simply hold references to all member disks and	 allow
       tools  like mdmon to determine which active arrays belong to which con‐
       tainer.	Some array management commands like disk removal and disk  add
       are  now	 only valid at the container level.  Attempts to perform these
       actions on member arrays are blocked with error messages like:

	      "mdadm: Cannot remove disks from a ´member´ array, perform  this
	      operation on the parent container"

       Containers  are	identified  in	/proc/mdstat  with  a metadata version
       string "external:<metadata name>". Member  devices  are	identified  by
       "external:/<container device>/<member index>", or "external:-<container
       device>/<member index>" if the array is to remain readonly.

OPTIONS
       CONTAINER
	      The container device to monitor.	It can be  a  full  path  like
	      /dev/md/container, or a simple md device name like md127.

       --foreground
	      Normally,	 mdmon	will  fork  and	 continue  in  the background.
	      Adding this option will skip that step  and  run	mdmon  in  the
	      foreground.

       --takeover
	      This  instructs  mdmon to replace any active mdmon which is cur‐
	      rently monitoring the array.  This is primarily used late in the
	      boot  process  to	 replace  any  mdmon which was started from an
	      initramfs before the root filesystem was mounted.	  This	avoids
	      holding  a  reference on that initramfs indefinitely and ensures
	      that the pid and sock files used to communicate with  mdmon  are
	      in a standard place.

       --all  This  tells  mdmon to find any active containers and start moni‐
	      toring each of them if appropriate.  This is normally used  with
	      --takeover  late in the boot sequence.  A separate mdmon process
	      is started for each container as the  --all  argument  is	 over-
	      written with the name of the container.  To allow for containers
	      with names longer than 5 characters, this argument can be	 arbi‐
	      trarily extended, e.g. to --all-active-arrays.

	      Note that
	      mdmon  is automatically started by mdadm when needed and so does
	      not need to be considered when working with  RAID	 arrays.   The
	      only  times  it  is  run	other  than  by mdadm is when the boot
	      scripts need to restart it after mounting the new root  filesys‐
	      tem.

START UP AND SHUTDOWN
       As  mdmon  needs to be running whenever any filesystem on the monitored
       device is mounted  there	 are  special  considerations  when  the  root
       filesystem  is  mounted	from  an mdmon monitored device.  Note that in
       general mdmon is needed even if the filesystem is mounted read-only  as
       some  filesystems can still write to the device in those circumstances,
       for example to replay a journal after an unclean shutdown.

       When the array is assembled by the initramfs code, mdadm will automati‐
       cally start mdmon as required.  This means that mdmon must be installed
       on the initramfs and there must be  a  writable	filesystem  (typically
       tmpfs) in which mdmon can create a .pid and .sock file.	The particular
       filesystem to use is given to mdmon at compile  time  and  defaults  to
       /run/mdadm.

       This filesystem must persist through to shutdown time.

       After  the  final  root	filesystem  has	 be instantiated (usually with
       pivot_root) mdmon should be run with --all --takeover so that the mdmon
       running from the initramfs can be replaced with one running in the main
       root, and so the memory used by the initramfs can be released.

       At shutdown time, mdmon should not be  killed  along  with  other  pro‐
       cesses.	 Also  as  it  holds a file (socket actually) open in /dev (by
       default) it will not be possible to unmount /dev if it  is  a  separate
       filesystem.

EXAMPLES
	 mdmon --all-active-arrays --takeover
       Any  mdmon  which  is currently running is killed and a new instance is
       started.	 This should  be  run  during  in  the	boot  sequence	if  an
       initramfs  was  used, so that any mdmon running from the initramfs will
       not hold the initramfs active.

SEE ALSO
       mdadm(8), md(4).

v3.3								      MDMON(8)
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